Polder Paper References

REFERENCES

[1] P. Bicheron. M. Leroy, F. M. Br~on, and 0. Hautecoeur, "Enhanced discrimination of boreal fonest covers with directional reflectance from the airborne POLDER instrument," J. Geophys. Res., vol. 102, pp. 29517-29528, 1997.
[2] F. M. Bréon, V. Vanderbilt, M. Leroy, P. Bicheron, C. L. Waithall, and J. E. Kaishoven. "Evidence of hot-spot signature from airborne POLDER measurements," IEEE Trans. Geosci. Remote Sensing. vol. 35, pp. 479~84. Mar.1997.
[3] E. M. Middleton. S. S. Chan. R. i. Rusin, and S. K. Mitchell, "Optical properties of black spruce and jack pine needles at BOREAS site in Saskatchewan, Canada," Can. J. Remote Sensing, vol.23, no.2, pp. 188-199, 1996.
[4] J. M. Chen. "Canopy architecture and remote sensing of the fraction of photosynthetically active radiation absorbed by boreal conifer forests," IEEE Trans. Geosci. Remote Sensing, vol.34, pp. 1353-1368, Nov. 1996.
[5] -------- "Optically-based methods for measunng seasonal variation of leaf area index in boreal conifer stands," Agric. Forest. Meteorol, vol. 80. pp.135-163, 19%.
[6] J. M. Chen and T. A. Black, "Measuring leaf area index of plant canopies with branch architecture," Agric. Forest. MeteoroL, vol.57, pp.1-12, 1991.
[7] J. M. Chen, P. D. Blanken, T. A. Black, M. Guilbeault, and S. Chen, "Radiation regime and canopy architecture in a boreal aspen forest," Agri. Forest. Meteorol.. vol.86. pp.107-125.1996.
[8] J. M. Chen and J. Cihlar, "Quantifying the effect of canopy architecture on optical measurements of leaf area index using two gap size analysis methods," IEEE Trans. Geosci. Remote Sensing. vol.33, pp.777-787, July 1995.
[9]-------, "Retrieving leaf area index of boreal conifer forest using Lansat TM images," Remote Sens. Environ.. vol.55, pp. 153-162, 1996.
[10] J. M. Chen and S. G. Leblanc, "A four-scale bidirectional reflectance model based on canopy architecture," IEEE Trans. Geosci. Remote Sensing. vol.35, pp. l3l6-l337. Nov.1997.
[11] J. M. Chen, P. M. Rich. S. T. Gower, J. M. Norman. and S. Plummer. "Leaf area index of boreal forests: Theory, techniques. and measure ments," J. Geopkvs. Res., vol.102, pp. 29429-29443. 1997.
[12] J. Cihlar, D. Manak, and N. Voisin, "AVHRR bidirectional reflectance effect and compositing," Remote Sens. Environ., vol.48. pp.77-88. 1994.
[13] P.-Y. Dechamps, F. M. Bréon. M. Leroy. A. Podaire, A. Bricaud. J.-C. Buriez. and G. Sève, "The POLDER mission: Instrumental character istics and scientific objectives." IEEE Trans. Geosci. Remote Sensing. vol.32, pp.598-613. May 1994.
[14] D. W. Deering, E. M. Middleton. T. F. Eck, and B. P. Banerjee. "Reflectance anisotropy for a spruce-hemlock forest canopy." Remote Sens. Environ., vol.47, pp.242-260, 1994.
[15] N. S. Goel and W. Qin, "Influences of canopy architecture on relationships between various vegetation indices and LAI and FPAR: A computer simulation," Remote Sens. Rev., vol.10, pp.309-347.1994.
[16] D. L. B. iupp and A. H. Strahler, "A hotspot model for leaf canopies," Remote Sens. Environ., vol.38, pp.193-210,1991.
[17] M. Leroy and F.M. Btton, "Surface reflectance angular signatures from airborne POLDER data," Remote Sens. Env.. vol.57, pp.97-107.1996.
[18] X. Li and A. H. Strahler, "Geometric-optical bidirectional reflectance modeling of a coniferous forest canopy," IEEE Trans. Geosci. Remote Sensing, vol. GE-24, pp. 906-919. Sept.1986.
[19] ------ , "Modeling the gap probability of a dicontinuous vegetation canopy," IEEE Trans. Geosci. Remote Sensing, vol.26, pp.161-169, Jan. 1988.
[20] -----,"Geometric-optical bidirectional reflectance modeling of the discrete crown vegetation canopy: Effect of crown shape and mutual shadowing," IEEE Trans. Geosci. Remote Sensing. vol.30, pp. 276-29l, Mar. 1992.
[21] X. Li, A. H. Strahler, and C. E. Woodcock, "A hybrid geometric-optical radiative transfert approach for modeling albedo and directional reflectance of discontinuous canopies," IEEE Trans. Geosci. Remote Sensing, vol.33, pp. 466A80, Mar.1995.
[22] B. L. Markham, D. L. Williams, 3. R. Schafer, F. Wood, and M. S. Kim, "Radiometric characterization of diode-array field spectrometers," Remote Sens. Environ., vol.51, pp. 317-330, 1995.
[23] E. M. Middleton, D. W. Deering. and S. P. Ahmad, "Surface anisotropy and hemispheric reflectance for a semiarid ecosystem," Remote Sens. Environ.. vol.23, pp.193-212,1987.
[24] R. B. Myneni and J. Ross, Eds., Photon-Vegetation Interactions.Berlin, Germany: Springer-Verlag, 1991.
[25] J. Neyman. "On a new class of 'contagious' distribution, applicable in entomology and bacteriology," Ann. Math. Stat, vol.10, pp.35-57. 1939.
[26] T. Nilson and A. Kuusk, "A reflectance model for the homogeneous plant canopy and its inversion," Remote Sens. Environ., vol.25, pp. 82-95,1988.
[27] T. Nilson and U. Peterson, "A forest canopy reflectance model and a test case," Remote Sens. Environ., vol.37, pp. 131-142, 1991.
[28] J. Ottenman and T. W. Brakke. "Dense canopy albedo as a function of illumination direction: Dependance on structure and leaf transmittance," Theor. Appl. Climatol, vol.43, pp.3-16, 1991.
[29] C. Barker Schaaf and A. H. Strahler, "Validation of bidirectional and hemispherical reflectance from a geometric-optical model using ASAS imagery and pyranometer measurements of a spruce-forest." Remote Sens. Environ., vol.49, pp.138-144,1994.
[30] P. Sellers, F. Hall, H. Margolis, B. Kelly. D. Baldocchi, D. Den Hartog, J. Cihlar, M. Ryan. B. Goodison, P. Crill, 3. Ranson, D. Lettermaier. and D. E. Wickland, "The boreal ecosystem-atmosphere study (BOREAS): An overview and early results from the 1994 field year," BulL Amer.MeteoroL Soc., vol.76, pp.1549-1577.1995.
[31] R. Soffer, "Bidirectional reflectance factors of an open tree canopy by laboratory simulation," M.S. thesis, York Univ., North York, Ont., Canada, 1995.
[32] A. H. Strahler and D. L. B. Jupp. "Modeling bidirectional reflectance of forests and woodlands using Boolean models and geometric optics," Remote Sens. Environ., vol.34, pp. 153-166. I990.
[33] W. Verhoef, "Light scattering by leaf layers with application to canopy reflectance modeling: The sail model," Remote Sens. Environ.. vol.16, pp.125-141.1984.
[34] E. D. Vermote. D. Tanre, J. L. Deuze, and J. J. Morcrette, "Seconi simulation of the satellite signal in the solar spectrum: An overview, IEEE Trans. Geosci. Remote Sensing, vol.35, pp. 675-686. Mar. l997
[35] H. P. While. J. R. Miller, i. M. Chen, D. R. Peddle, and G. McDermid, "Seasonal change in mean understory reflectance for boreal site: Preliminary results," in Proc. 17th Can. Symp. Remote Sensing. 1995.
[36] A. Wu. Z. Li, and J. Cihlar, "Effect of land cover type and greennes on advanced very high resolution radiometer reflectance: Analysis an removal," J. Geophys. Res., vol.100, pp.9179-9192, 1995.